JP2022075850A - Radiographic system and console - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent erroneous photographing in a medical facility capable of performing both still image capturing and motion image capturing.

SOLUTION: A radiographic system includes: a radioactive ray detector (FPD) which detects a radiated radioactive ray and generates image data; a console communicative with the radioactive ray detector; and notification means which displays, while classifying by color, inspection order information containing motion image capturing in a color different from inspection order information containing only still image capturing, in an inspection list screen displaying a list of the inspection order information containing information regarding imaging to be performed in an inspection.

SELECTED DRAWING: Figure 6

COPYRIGHT: (C)2022,JPO&INPIT

Description

The present invention relates to radiography systems, consoles and programs.

Conventionally, various techniques for preventing erroneous shooting in a medical facility capable of both still image shooting and moving image shooting of a subject by radiation have been proposed.
For example, in Patent Document 1, based on the ID information of the portable FPD transmitted from the bucky device, the FPD type of whether or not the FPD mounted on the bucky device is compatible with video recording is determined, and the FPD type is determined. It is described that the possibility of shooting is determined and displayed based on the relationship between the shooting order information and the shooting order information.

Japanese Unexamined Patent Publication No. 2012-110451

By the way, in a medical facility where both still image shooting and video shooting can be performed, it is necessary for the photographer to recognize the shooting type of whether the shooting to be performed is still image shooting or video shooting. .. Conventionally, the photographer confirms the shooting type by using the character information written on the screen of the console, the operation console, or the like as a clue. However, the photographer is watching the patient immediately before taking a picture, and it is not easy to read and confirm the characters one by one. If the imaging type is mistakenly identified and the imaging is performed, the imaging will be repeated and the patient will be exposed to unnecessary radiation.

An object of the present invention is to prevent erroneous shooting in a medical facility where both still image shooting and moving image shooting can be performed.

In order to solve the above problems, the invention according to claim 1 is
A radiography system including a radiation detector that detects irradiated radiation and generates image data, and a console that can communicate with the radiation detector.
On the inspection list screen that displays a list of inspection order information that includes information about shooting that should be performed in the inspection, the inspection order information that includes video shooting is color-coded with a different color from the inspection order information that only shoots still images. A notification means for displaying is provided.

The invention according to claim 2 is
A console that can communicate with a radiation detector that detects the emitted radiation and generates image data.
On the inspection list screen that displays a list of inspection order information that includes information about shooting that should be performed in the inspection, the inspection order information that includes video shooting is color-coded with a different color from the inspection order information that only shoots still images. A notification means for displaying is provided.

The invention according to claim 3 is
A program that allows a computer to function as a console capable of communicating with a radiation detector that detects the emitted radiation and generates image data.
The computer
On the inspection list screen that displays a list of inspection order information that includes information about shooting that should be performed in the inspection, the inspection order information that includes video shooting is color-coded with a different color from the inspection order information that only shoots still images. Notification control means to display,
To function as.

According to the present invention, it is possible to prevent erroneous shooting in a medical facility where both still image shooting and moving image shooting can be performed.

It is a figure which shows the whole structure of the radiological imaging system which concerns on 1st Embodiment. It is a perspective view which shows the detail of a radiation source. It is a figure which shows the example of the structure of the main part of the shooting console. It is a figure which shows the relationship between the pressing of an exposure switch and radiation irradiation. It is a figure which shows the flow of the inspection execution process A executed by the radiography system in 1st Embodiment. It is a figure which shows the flow of the inspection execution process A executed by the radiography system in 1st Embodiment. It is a figure which shows the flow of the inspection execution process A executed by the radiography system in 1st Embodiment. It is a figure which shows an example of the inspection list screen. It is a figure which shows an example of the inspection screen. It is a figure which shows the whole structure of the radiological imaging system which concerns on 2nd Embodiment. It is a figure which shows the flow of the inspection execution process B executed by the radiography system in the 2nd Embodiment. It is a figure which shows the flow of the inspection execution process B executed by the radiography system in the 2nd Embodiment. It is a figure which shows the flow of the inspection execution process B executed by the radiography system in the 2nd Embodiment. It is a figure which shows an example of a shooting type selection screen.

Hereinafter, embodiments of the radiography system according to the present invention will be described with reference to the drawings. However, the present invention is not limited to the following illustrated examples.

<First Embodiment>
(Configuration of radiography system)
First, the configuration of the radiography system 100 according to the present embodiment will be described.
FIG. 1 is a diagram showing an overall configuration example of the radiological imaging system 100 according to the embodiment of the present invention. FIG. 1 shows a case where the radiography imaging system 100 is constructed in the imaging chamber Rm.
The radiation photographing system 100 is a system that irradiates a target portion of a human body with radiation as a subject and takes a still image or a moving image. In the present embodiment, still image shooting means acquiring an image of one subject in response to one shooting operation (pressing the exposure switch 62a). Movie shooting is shooting that is paired with still image shooting, and refers to continuously acquiring images of a plurality of subjects in one shooting operation to obtain a moving image, which is obtained by shooting. The real-time property of image display and shooting time are not restricted. Movie shooting also includes dynamic shooting and tomosynthesis shooting.

The photographing room Rm is provided with, for example, a bucky device 1 for standing position photographing, a bucky device 2 for lying position photographing, a radiation source 3, a photographing console 5, and an operation console 6. The shooting room Rm is provided with an anterior chamber Ra and a photographing execution room Rb, and the anterior chamber Ra is provided with a shooting console 5 and an operation console 6 to prevent exposure to a photographer such as a camera operator. There is.

Hereinafter, each device in the photographing room Rm will be described.
The bucky device 1 is a device for holding an FPD (Flat Panel Detector) 9 and taking a picture when taking a picture in a standing position. The bucky device 1 has a holding portion 12a for holding the FPD 9, and a connector 12b for connecting the connector of the FPD 9 mounted on the holding portion 12a. The connector 12b transmits / receives data to / from the FPD 9 mounted on the holding portion 12a, and supplies electric power to the FPD 9. Further, the bucky device 1 includes an interface for transmitting / receiving data to / from an external device such as a shooting console 5 via a communication cable, a foot switch for moving the holding portion 12a in the vertical direction or the horizontal direction, and the like. Further, the bucky device 1 is provided with a display unit 13 for displaying information regarding the next imaging (patient information of a patient to be a subject, an imaging site, etc.).

The bucky device 2 is a device for holding the FPD 9 and taking a picture when taking a picture in the recumbent position. The bucky device 2 has a holding portion 22a for holding the FPD 9, and a connector 22b for connecting the connector of the FPD 9 mounted on the holding portion 22a. The connector 22b transmits / receives data to / from the FPD 9 mounted on the holding portion 22a, and supplies electric power to the FPD 9. Further, the bucky device 2 includes an interface for transmitting / receiving data to / from an external device such as a shooting console 5 via a communication cable, and a subject stand 26 for mounting a subject. Further, the bucky device 2 is provided with a display unit 23 for displaying information regarding the next imaging (patient information of the patient to be a subject, imaging site, etc.).

For example, the radiation source 3 is suspended from the ceiling of the photographing room Rm, and is adjusted to a predetermined position and orientation by a drive mechanism (not shown) based on an instruction from the photographing console 5 at the time of photographing. ing. Then, by changing the irradiation direction of the radiation, it is possible to irradiate the FPD 9 mounted on the bucky device 1 for standing position or the bucky device 2 for lying position with radiation (X-rays). .. Further, the radiation source 3 irradiates radiation according to the irradiation instruction from the operation console 6, and takes a still image or a moving image.
In the present embodiment, as shown in FIG. 2, the radiation source 3 has a display unit 31 for displaying information regarding the next imaging (patient information of the patient to be the subject, imaging site, imaging direction, etc.). It is prepared. Here, FIG. 2 is a perspective view showing the details of the radiation source 3.

The imaging console 5 is a device that controls imaging by controlling each unit (device) constituting the radiography imaging system 100. The shooting console 5 is connected to HIS / RIS (Hospital Information System / Radiology Information System) 7, server device 10, etc. via a communication network N such as LAN (Local Area Network), and is transmitted from HIS / RIS 7. Based on the inspection order information, each part constituting the radiological imaging system 100 is controlled to perform imaging.

FIG. 3 shows an example of a main part configuration of the shooting console 5. As shown in FIG. 3, the shooting console 5 includes a control unit 51, a storage unit 52, an operation unit 53, a display unit 54, a communication I / F 55, a network communication unit 56, a sound output unit 57, a vibration generation unit 58, and the like. Each part is connected by a bus 59.

The control unit 51 is composed of a CPU, RAM, and the like. The CPU of the control unit 51 reads various programs such as system programs and processing programs stored in the storage unit 52, expands them in the RAM, and executes various processes according to the expanded programs.
For example, the control unit 51 makes an inquiry to HIS / RIS7 via the network communication unit 56 at predetermined time intervals, and acquires inspection order information newly registered in HIS / RIS7.
Further, for example, the control unit 51 controls each unit constituting the radiography imaging system 100 by executing the processing on the imaging console 5 side of the inspection execution processing A shown in FIGS. 5A to 5C to notify the imaging type. Have them shoot.

The storage unit 52 is composed of, for example, an HDD (Hard Disk Drive), a semiconductor non-volatile memory, or the like.
Various programs and data are stored in the storage unit 52. For example, the storage unit 52 stores a program or the like for executing the processing on the photographing console 5 side of the inspection execution processing A shown in FIGS. 5A to 5C.

Further, the storage unit 52 stores imaging conditions (irradiation irradiation conditions and image reading conditions) in association with the combination of the imaging type and the imaging region. The irradiation conditions are, for example, an X-ray tube current value, an X-ray tube voltage value, a filter type, a SID (Source to Image-receptor Distance), a pulse rate at the time of moving image shooting, a pulse width, a pulse interval, and the like. The image reading conditions are, for example, a pixel size, an image size (matrix size), a frame rate at the time of moving image shooting, a frame interval, and the like. The frame rate matches the pulse rate.

Further, the storage unit 52 stores inspection order information transmitted from HIS / RIS7 at predetermined time intervals. The examination order information includes, for example, patient information such as examination identification information (examination ID, etc.), examination date, name of the patient to be the subject, and information related to each imaging performed in the examination (imaging ID, imaging site, imaging direction, standing position). (Standing, lying down), types of still image shooting or moving image shooting, etc.) are included.

The operation unit 53 includes a keyboard equipped with character input keys, number input keys, various function keys, and a pointing device such as a mouse, and is composed of a key press signal operated by the keyboard and an operation signal by the mouse. Is output to the control unit 51 as an input signal.

The display unit 54 is configured to include, for example, a monitor such as a CRT (Cathode Ray Tube) or an LCD (Liquid Crystal Display), and displays various screens according to instructions of display signals input from the control unit 51.
A pressure-sensitive (resistive film pressure type) touch panel (not shown) in which transparent electrodes are arranged in a grid pattern is formed on the screen of the display unit 54, and the display unit 54 and the operation unit 53 are integrally configured. It may be a touch screen. In this case, the touch panel is configured to detect the XY coordinates of the force point pressed by a finger, a stylus, or the like as a voltage value, and output the detected position signal to the control unit 51 as an operation signal. The display unit 54 may have a higher definition than a monitor used in a general PC (Personal Computer).

The communication I / F 55 is an interface for connecting to each of the bucky device 1, the bucky device 2, and the console 6 to transmit and receive data.

The network communication unit 56 is configured by a network interface or the like, and transmits / receives data to / from an external device connected to the communication network N via a switching hub.

The sound output unit 57 includes a speaker or the like, and outputs sound (voice) in response to control from the control unit 51.
The vibration generating unit 58 generates and outputs vibration according to the control from the control unit 51.

The operation console 6 includes a control unit 61, an operation unit 62 including an exposure switch 62a, a display unit 63, a communication I / F (not shown), and the like, and is a terminal for controlling the radiation irradiation of the radiation source 3. .. The console 6 may, for example, transmit a position adjustment instruction signal from the photographing console 5 to the radiation source 3, display the irradiation conditions transmitted from the photographing console 5 on the display unit 63, or be a radiation engineer or the like. The radiation irradiation condition is adjusted according to the body thickness of the subject by the operation of the photographer, and the activation instruction signal and the irradiation instruction signal are transmitted to the radiation source 3 in response to the pressing of the exposure switch 62a.

Here, as shown in FIG. 4, the exposure switch 62a is a two-stage switch, and when the first-stage switch is pressed (Prep ON), an activation instruction signal for the radiation source 3 is input to the second-stage switch. When the switch is pressed (Exp ON), a radiation irradiation instruction signal for the radiation source 3 is input (Xray ON) after the delay time Td has elapsed. Further, the exposure switch 62a is equipped with an LED (light emitting diode) or the like so that the display color can be changed. Further, the exposure switch 62a is equipped with a sound output unit and a vibration generation unit (not shown), and sounds and vibrations are output in response to pressing of the first stage switch and the second stage switch. .. Details will be described later.

HIS / RIS7 generates inspection order information according to the registration operation by the operator. The examination order information includes, for example, patient information such as the name, gender, age, height, and weight of the patient to be the subject, and information related to each imaging performed in the examination (imaging ID, imaging site, imaging direction, body position (standing position, lying down)). Position), type of still image shooting or moving image shooting, shooting method, etc.). The inspection order information is not limited to the information exemplified here, and may include information other than this, or may be a part of the information exemplified above.

The diagnostic console 8 is a computer device for acquiring a medical image from the server device 10 and displaying the acquired image for a doctor to perform an image interpretation diagnosis.

The FPD 9 is a radiation detector including a control unit, a detection unit, a storage unit, a connector, a battery, and the like.
The detection unit of the FPD 9 has, for example, a glass substrate or the like, and detects radiation emitted from the radiation source 3 at a predetermined position on the substrate and at least transmitted through the subject according to its intensity, and detects the detected radiation. A plurality of detection elements that are converted into electric signals and stored are arranged in a two-dimensional manner. The detection element is composed of a semiconductor image sensor such as a photodiode. Each detection element is connected to a switching unit such as a TFT (Thin Film Transistor), and the storage and readout of an electric signal are controlled by the switching unit.

The control unit of the FPD 9 controls the switching unit of the detection unit based on the image reading condition input from the imaging console 5 via the bucky device 1 or 2, and stores it in each radiation detection element (hereinafter, detection element). Image data is generated by switching the reading of the electric signal and reading the electric signal stored in the detection unit. Then, the control unit outputs the generated image data to the shooting console 5 via the connector and the bucky device 1 or 2.
The connector of the FPD 9 is connected to the connector on the bucky device 1 or 2 side, and data is transmitted / received to / from the bucky device 1 or 2. Further, the connector of the FPD 9 supplies the electric power supplied from the connector of the bucky device 1 or 2 to each functional unit. The battery may be charged.

The server device 10 includes a database that stores image data of medical images transmitted from the photographing console 5 in association with inspection order information. Further, the server device 10 reads a medical image from the database and transmits it to the diagnostic console 8 upon request.

(Shooting operation)
Next, the flow of inspection implementation in the radiography system 100 will be described.
5A-5C show the flow of the inspection execution process A executed in the radiography system 100. In the inspection execution process A, the display unit 54 of the photographing console 5, the sound output unit 57, the vibration generation unit 58, the display unit 13 of the bucky device 1, the display unit 23 of the bucky device 2, the display unit 31 of the radiation source 3, and the operation. The exposure switch 62a of the table 6 intuitively determines whether the shooting to be performed in the inspection is still image shooting or moving image shooting by visual, auditory and / or tactile sense without reading text information. It functions as a notification means for notifying in an identifiable manner.

First, the control unit 51 of the shooting console 5 determines whether or not each of the ordered inspections includes video shooting based on the inspection order information stored in the storage unit 52, and the inspection including video shooting is performed. The inspection list screen 541, which displays the inspection order information of the above in a color different from the inspection order information of the inspection not including the moving image shooting, is displayed on the display unit 54 (step S1).

FIG. 6 shows an example of the inspection list screen 541. As shown in FIG. 6, on the inspection list screen 541, an inspection list display field 541a for displaying a list of inspection order information, an inspection information display field 541b for displaying inspection order information selected by the operation unit 53, and an inspection start are displayed. An inspection start button 541c or the like for instructing is provided. In the present embodiment, as shown in FIG. 6, among the inspection order information displayed in the inspection list display field 541a, the background of the inspection order information line of the inspection including the moving image shooting does not include the moving image shooting. It is displayed in a different background color from the inspection order information line. Alternatively, the color of the characters themselves in the inspection order information may be color-coded. As a result, before the start of the inspection, the photographer can intuitively recognize the inspection including the moving image shooting without reading the characters.
In the following description, when the inspection order information and the information related to each shooting are displayed in the color corresponding to the shooting type, the information itself (for example, the character color) is displayed in the color corresponding to the shooting type. And, any mode may be used in the case where the background color of the line of the information is displayed in the color corresponding to the shooting type.

The control unit 51 waits for the inspection order information of the next inspection to be executed to be selected from the inspection list screen 541 by the operation unit 53 and the inspection start button 541c to be pressed (step S2; NO, step S3; NO). ..
When the inspection order information is selected from the inspection list screen 541 by the operation unit 53 (step S2; YES) and the inspection start button 541c is pressed (step S3; YES), the control unit 51 controls the inspection order for the started inspection. Based on the information, it is determined whether the initiated inspection includes video recording (step S4).

When it is determined that the started inspection includes moving image shooting (step S4; YES), the control unit 51 outputs a predetermined sound indicating that the moving image shooting is included by the sound output unit 57 (step S5), and step S6. Move to. Here, the predetermined sound is, for example, a predetermined buzzer sound, a sound such as "there is a moving image shooting", a predetermined sound effect, or the like. In this way, when the inspection includes video recording at the timing of the start of the inspection, the photographer intuitively recognizes that the started inspection includes video recording by notifying the fact by sound. be able to.
When it is determined that the started inspection does not include moving image shooting (step S4; NO), the control unit 51 proceeds to step S6.

In step S6, the control unit 51 displays information about each shooting included in the inspection during the inspection in a color corresponding to the shooting type of the shooting, or displays the information about each shooting with an icon corresponding to each shooting type. The inspection screen 542 displayed in association with the above is displayed on the display unit 54 (step S6).
FIG. 7 shows an example of the inspection screen 542. As shown in FIG. 7, on the inspection screen 542, a shooting selection button 542a in which information about each shooting included in the inspection during the inspection (for example, a shooting site, a body position, a shooting direction, etc.) is displayed is displayed. There is. Each of the shooting selection buttons 542a is displayed in a different color (character color or background color) or screen design (for example, an icon) depending on the shooting type depending on whether the corresponding shooting is still image shooting or moving image shooting. There is. When the shooting selection button 542a is selected by the operation unit 53, the selected shooting is recognized as the next shooting to be performed. In this way, the photographer can display different colors and icons on the shooting selection button 542a corresponding to each shooting depending on whether each shooting included in the inspection during the inspection is a still image shooting or a moving image shooting. , It is possible to intuitively recognize whether the selected shooting is still image shooting or moving image shooting without reading the characters.

Next, the control unit 51 waits for any of the shooting selection buttons 542a to be pressed by the operation unit 53 (step S7).
When any of the imaging selection buttons 542a is pressed by the operation unit 53 (that is, the imaging to be performed next is selected) (step S7; YES), the control unit 51 controls the radiation source 3 and the selected imaging. Information (patient information, imaging type, imaging site, imaging direction, etc.) related to the selected imaging and its display control signal are transmitted to the bucky device 1 or 2 according to the body position information of (next imaging) (step S8). ..

In the radiation source 3, the bucky device 1 or 2, when the information regarding the next shooting and the display control signal thereof are received from the shooting console 5, the information regarding the next shooting is displayed in the display unit (display unit 31, display unit 13 or 23). ), And the color and / or screen design according to the shooting type of the next shooting is displayed on the display unit (display unit 31, display unit 13 or 23) (steps S9, S10).

Further, the control unit 51 transmits a position adjustment signal according to the body position information of the selected imaging (next imaging) to the radiation source 3 (step S11). The radiation source 3 adjusts the position based on the position adjustment signal (step S12).

Further, the control unit 51 transmits image reading conditions according to the imaging site and imaging type to the FPD 9 via the bucky device according to the body position information of the selected imaging (next imaging), and prepares for imaging such as resetting. At the same time (step S13), the imaging type and the irradiation conditions according to the imaging site and the imaging type are transmitted to the operation console 6 (step S14).

Upon receiving the radiation irradiation condition from the shooting console 5 on the operation console 6, the control unit 61 displays the radiation irradiation condition on the display unit 63 and displays the color and / or screen design according to the shooting type of the next shooting. It is displayed on the display unit 63 (step S15). Further, the control unit 61 adjusts the irradiation conditions according to the input from the operation unit 62 and sets the radiation source 3.

When the photographer selects the next imaging from the inspection screen 542 of the imaging console 5 in the anterior chamber Ra, he / she moves to the imaging performing room Rb to position the patient, adjust the position and orientation of the radiation source 3, and adjust the patient. Guidance on shooting for the patient. At this time, the display unit 13 or 23 of the bucky device 1 or 2 in the photographing execution room Rb and the display unit 31 of the radiation source 3 display colors and screen designs according to the imaging type of the next imaging. Therefore, the photographer can intuitively recognize and confirm whether the next shooting is still image shooting or moving image shooting in the shooting execution room Rb without reading the characters. As a result, it is possible to prevent omission of confirmation of the imaging type, and it is possible to instruct the patient to perform appropriate imaging according to the imaging type. For example, if you are shooting a still image, you can give instructions such as "Hold your breath at the signal", and if you are shooting a movie, you can give instructions such as "Shoot for XX seconds. Please breathe comfortably". When the photographer is ready to shoot, the photographer presses the exposure switch 62a of the console 6.

On the console 6, the control unit 61 waits for the first-stage switch of the exposure switch 62a to be pressed, and when the first-stage switch is pressed (step S16; YES), the control unit 61 sends an activation instruction signal to the radiation source 3. Transmission (step S17). The radiation source 3 prepares for imaging, for example, by rotating the rotating anode (step S18). Further, the control unit 61 displays the exposure switch 62a in a color corresponding to the shooting type of the next shooting, and outputs the sound or vibration according to the shooting type of the next shooting to the exposure switch 62a (step S19). ). For example, to the exposure switch 62a, a sound indicating that the first stage switch is pressed is output as a sound having a frequency corresponding to the shooting type of the next shooting. In addition, vibration is output only when the shooting type of the next shooting is moving image shooting.

Next, the control unit 61 waits for the second-stage switch of the exposure switch 62a to be pressed, and when the second-stage switch of the exposure switch 62a is pressed (step S20; YES), the control unit 61 determines the shooting type of the next shooting. When it is determined whether or not the shooting is a moving image and it is determined that the next shooting is an operation shooting (step S21), a sound for notifying the photographer to that effect is output to the sound output unit of the exposure switch 62a. (Step S22). Further, the exposure switch 62a waits for a delay time Td according to the shooting type from the pressing of the second stage switch (step S23).

When the delay time Td elapses (step S23; YES), the control unit 61 transmits a radiation irradiation instruction signal to the radiation source 3 and the imaging console 5 (step S24). The shooting console 5 transmits a reading instruction signal to the FPD 9 via the bucky device (step S25). The radiation source 3 starts irradiation and irradiates the radiation according to the irradiation conditions set in the operation console 6 (step S26). The FPD 9 reads an image according to the image reading conditions (step S27), and transmits the obtained image data to the shooting console 5 via the bucky device (step S28).

Here, by notifying the photographer of the shooting type by sound, vibration, color, delay time of radiation irradiation, etc. at the timing when the exposure switch 62a is pressed to start radiation irradiation, the photographer makes an erroneous shooting (for example). , It is possible to prevent erroneous instructions to the patient (for example, taking a picture with "Please hold your breath" in a video recording that does not hold your breath), and prevent unnecessary radiation exposure of the patient. Can be done.

When the shooting is completed, the control unit 51 of the shooting console 5 determines whether or not the inspection end is instructed by the operation unit 53. If it is determined that the end of the inspection has not been instructed (step S29; NO), the process returns to step S7. When it is determined that the inspection end is instructed (step S29; YES), the control unit 51 transmits the received image data to the server device 10 in association with the inspection order information (step S30), and ends the inspection.

<Second embodiment>
Next, a second embodiment of the present invention will be described.
First, the configuration of the second embodiment will be described.
FIG. 8 shows an overall configuration example of the radiological imaging system 100A according to the second embodiment. The radiography system 100A is a system constructed in a relatively small facility such as a medical practitioner or a clinic. For example, as shown in FIG. 8, an operation console 6 is provided in the front chamber Ra of the imaging room Rm, and bucky devices 1 and 2, a radiation source 3 and an FPD 9 are provided in the imaging execution chamber Rb, and the outside of the imaging room Rm is provided. A console 5A is provided in the examination room and the like. The console 5A is equipped with a function as a shooting console, a function as a diagnostic console, and a function as a server device described in the first embodiment. Further, the radiological imaging system 100A is not provided with a device for issuing inspection order information in advance like the HIS / RIS7 described in the first embodiment, and each imaging of the inspection to be performed on the console 5A is not provided. It is possible to select the shooting type, whether it is still image shooting or moving image shooting.

Since the configurations of the bucky devices 1 and 2, the radiation source 3, the console 6, and the FPD 9 are the same as those described in the first embodiment, the description is incorporated. The functional configuration of the console 5A is the same as that shown in FIG. 3, but the programs and data stored in the storage unit 52 are different from those of the shooting console 5. Specifically, the storage unit 52 of the console 5A stores a program for executing a function as a shooting console, a function as a diagnostic console, and a function as a server device, and the control unit 51 and the storage unit. Each function is realized in cooperation with the program stored in 52. The program for executing the function as a shooting console includes a program for executing the operation on the console 5A side shown in FIGS. 9A to 9C.
Further, the storage unit 52 of the console 5A has a patient DB (Data Base) for storing patient information, an image DB for storing image data acquired by imaging, and the like. Since the other configurations of the console 5A are the same as those described in the first embodiment, the description is incorporated.

Next, the operation of the second embodiment will be described.
9A-9C show the flow of the inspection execution process B executed by the radiography system 100A in the second embodiment.

First, the control unit 51 of the console 5A reads out the patient information stored in the patient DB of the storage unit 52, and causes the display unit 54 to display the patient list screen (not shown) (step S31).
The patient list screen is a screen in which patient information is displayed in a list. The patient list screen is provided with an imaging type button, and when the patient information of a patient is selected from the patient list screen by the operation unit 53 and the imaging type button is pressed, the examination to be performed on the selected patient is performed. A shooting type selection screen 543 (see FIG. 10) for selecting and inputting a shooting type pattern can be displayed.

The control unit 51 waits for the patient information to be selected from the patient list screen by the operation unit 53 and the imaging type button to be pressed (step S32; NO, step S33; NO).
When patient information is selected from the patient list screen by the operation unit 53 (step S32; YES) and the imaging type button is pressed (step S33; YES), the control unit 51 displays the imaging type selection screen 543 on the display unit 54. Display (step S34).

FIG. 10 shows an example of the shooting type selection screen 543. As shown in FIG. 10, on the shooting type selection screen 543, a pattern selection button 543a for selecting an order pattern of shooting types (still image shooting, moving image shooting) in inspection, a default button 543b, and a cancel button 543c are provided. , An inspection start button 543d is provided. The default button 543b is associated with the most frequent order pattern in the facility (for example, still image shooting only), and when the shooting type selection screen 543 is opened, the default button is selected. There is. In the case of the default pattern, if the inspection start button 543d is pressed, the default pattern is automatically set. Each of the pattern selection buttons 543a is associated with patterns 1 to 3 (for example, pattern 1: still image shooting → moving image shooting, pattern 2: moving image shooting only, pattern 3: moving image shooting → still image shooting). The pattern of the shooting type associated with the pressed pattern selection button 543a is set. The patterns 1 to 3 can be customized by the user according to the operation of the facility by operating the operation unit 53.

When any one of the pattern selection buttons 543a is pressed by the operation unit 53 (step S35; YES), the control unit 51 waits for the inspection start button 543d to be pressed (step S36). When the inspection start button 543d is pressed by the operation unit 53 (step S36; YES), the control unit 51 sets the pattern corresponding to the pressed pattern selection button 543a as the pattern of the shooting type of the inspection to be performed (step S36; YES). Step S37), the process proceeds to step S40.

On the other hand, when any one of the pattern selection buttons 543a is not pressed by the operation unit 53 (step S35; NO) and the inspection start button 543d is pressed (step S38; YES), the control unit 51 sets the default pattern. It is set as a pattern for the shooting type of the inspection to be performed (step S39), and the process proceeds to step S40.

In step S40, the control unit 51 displays information about each shooting included in the inspection during the inspection (here, for example, information indicating the shooting type of each shooting) in a color corresponding to the shooting type. The inspection screen 542 displayed in association with the icon corresponding to the shooting type is displayed on the display unit 54 (step S40). The inspection screen 542 is substantially the same as that shown in FIG. 7. However, it is possible to select which bucky device to use for each shooting.

Since the processes of steps S41 to 62 are the same as those described in the first embodiment, the description thereof will be omitted. In steps S40 and S41 to S62 described above, the display unit 54 of the console 5A, the sound output unit 57, the vibration generating unit 58, the display unit 13 of the bucky device 1, the display unit 23 of the bucky device 2, and the display unit of the radiation source 3 31. The exposure switch 62a of the console 6 determines whether the shooting to be performed in the inspection is still image shooting or moving image shooting by visual, auditory and / or tactile sense without reading text information. It functions as a notification means for notifying in an intuitively identifiable manner.

When the operation unit 53 instructs the end of the examination in step S63 (step S63; YES), the control unit 51 associates the received image data with the patient information and stores it in the image DB of the storage unit 52 (step S64). ), End the inspection execution process B.

In the second embodiment, the shooting type selection screen 543 is displayed on the display unit 54 of the console 5A as a selection means for selecting the shooting type order pattern of the shooting performed in the inspection, and the selection operation from the screen is displayed. Since the order of the shooting types of the shooting performed in the inspection can be set according to the above conditions, the console 5A, the display units 13, 23, 31 in the shooting room, and the exposure switch 62a can be set even in a system in which the inspection order information is not issued. As a result, it is possible to display colors and screen designs according to the shooting type, output sounds and vibrations, and the like, so that the photographer can intuitively recognize the shooting type of the next shooting.

As described above, according to the radiography imaging system 100 (100A), the shooting type of whether the shooting to be performed is still image shooting or moving image shooting is more intuitive by at least one of visual, auditory, and tactile senses. Notify in an identifiable manner. Specifically, by at least one of color, screen design, sound, and vibration, the shooting type of whether the shooting to be performed is still image shooting or moving image shooting is notified in an intuitively identifiable manner. ..

Therefore, the photographer can intuitively recognize the shooting type of whether the shooting to be performed is still image shooting or moving image shooting without reading and confirming the characters one by one. Can be prevented.

The above embodiment is a preferred example of the present invention, and is not limited thereto.
For example, in the above embodiment, the photographer takes a picture of the next picture by the color, screen design, sound, vibration, etc. in the picture shooting console 5 (console 5A), the display units 13, 23, 31, the exposure switch 62a, and the like. The case of performing various notifications for intuitively recognizing the type has been described as an example, but it is not always necessary to apply all of them, and the user can customize which notification is performed.

Further, in the above description, an example in which an HDD, a semiconductor non-volatile memory, or the like is used as a computer-readable medium for the program according to the present invention has been disclosed, but the present invention is not limited to this example. As another computer-readable medium, a portable recording medium such as a CD-ROM can be applied. Further, a carrier wave is also applied as a medium for providing data of the program according to the present invention via a communication line.

In addition, the detailed configuration and detailed operation of each device constituting the radiography system can be appropriately changed without departing from the spirit of the invention.

100 Radiation imaging system 1 Bucky device 13 Display unit 2 Bucky device 23 Display unit 3 Radiation source 31 Display unit 5 Imaging console 51 Control unit 52 Storage unit 53 Operation unit 54 Display unit 55 Communication I / F
56 Network communication unit 57 Sound output unit 58 Vibration generation unit 59 Bus 6 Operation console 61 Control unit 62 Operation unit 62a Exposure switch 63 Display unit 7 HIS / RIS
8 Diagnostic console 9 FPD
10 Server Equipment 100A Radiation Imaging System 5A Console

The present invention relates to a radiography system and a console .

In order to solve the above problems, the invention according to claim 1 is
A radiography system including a radiation detector that detects radiation emitted by a radiation source and generates image data, and a console that can communicate with the radiation detector.
A shooting selection button for selecting one shot from multiple shots included in the inspection,
By displaying the shooting selection button by at least one of the color and the screen design, a notification means for notifying whether the shooting corresponding to the shooting selection button is a still image shooting or a moving image shooting is provided.
The irradiation conditions of the radiation source are set according to whether the shooting selected by the shooting selection button is a still image shooting or a moving image shooting.

The invention according to claim 2 is the invention according to claim 1.
If the shooting selected by the shooting selection button is still image shooting, set the irradiation conditions for still image shooting, and if the shooting selected by the shooting selection button is movie shooting, it is for movie shooting. Set the irradiation conditions.

The invention according to claim 3 is
A console that can communicate with a radiation detector that detects the radiation emitted by a radiation source and generates image data.
A shooting selection button for selecting one shot from multiple shots included in the inspection,
By displaying the shooting selection button by at least one of the color and the screen design, a notification means for notifying whether the shooting corresponding to the shooting selection button is a still image shooting or a moving image shooting is provided.
Different radiation irradiation conditions are transmitted to the control terminal of the radioactivity source depending on whether the shooting selected by the shooting selection button is still image shooting or moving image shooting.

Claims (3)

A radiography system including a radiation detector that detects irradiated radiation and generates image data, and a console that can communicate with the radiation detector.
On the inspection list screen that displays a list of inspection order information that includes information about shooting that should be performed in the inspection, the inspection order information that includes video shooting is color-coded with a different color from the inspection order information that only shoots still images. A radiography system equipped with a notification means to display. A console that can communicate with a radiation detector that detects the emitted radiation and generates image data.
On the inspection list screen that displays a list of inspection order information that includes information about shooting that should be performed in the inspection, the inspection order information that includes video shooting is color-coded with a different color from the inspection order information that only shoots still images. A console with a means of notification to display. A program that allows a computer to function as a console capable of communicating with a radiation detector that detects the emitted radiation and generates image data.
The computer
On the inspection list screen that displays a list of inspection order information that includes information about shooting that should be performed in the inspection, the inspection order information that includes video shooting is color-coded with a different color from the inspection order information that only shoots still images. Notification control means to display,
A program to function as.

Images